1-1 chapter 1—the general purpose machine computer systems design and architecture by v. heuring...
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1-1 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Chapter 1: The General Purpose Machine
Topics
1.1 The General Purpose Machine
1.2 The User’s View
1.3 The Machine/Assembly Language Programmer’s View
1.4 The Computer Architect’s View
1.5 The Computer System Logic Designer’s View
1.6 Historical Perspective
1.7 Trends and Research
1.8 Approach of the Text
1-2 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 2Explores the nature of machines and machine
languages
• Relationship of machines and languages
• Generic 32-bit Simple Risc Computer - SRC
• Register transfer notation—RTN• The main function of the CPU is the Register Transfer
• RTN provides a formal specification of machine structure and function
• Maps directly to hardware
• RTN and SRC will be used for examples in subsequent chapters
• Provides a general discussion of addressing modes
• Presents a view of logic design aimed at implementing registers and register transfers
1-3 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 3
• Treats 2 real machines of different types—CISC and RISC—in some depth
• Discusses general machine characteristics and performance
• Differences in design philosophies of
• CISC (Complex Instruction Set Computer) and
• RISC (Reduced Instruction Set Computer) architectures
• CISC machine—Motorola MC68000
• Applies RTN to the description of real machines
• RISC machine—SPARC
1-4 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 4This keystone chapter describes processor
design at the logic gate level
• Describes the connection between the instruction set and the hardware
• Develops alternative 1-, 2-, and 3-bus designs of SRC at the gate level
• RTN provides description of structure and function at low and high levels
• Shows how to design the control unit that makes it all run
• Describes two additional machine features: • implementation of exceptions (interrupts)
• machine reset capability
1-5 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 5Important advanced topics in CPU design
• General discussion of pipelining—having more than one instruction executing simultaneously
• requirements on the instruction set
• how instruction classes influence design
• pipeline hazards: detection & management
• Design of a pipelined version of SRC
• Instruction-level parallelism—issuing more than one instruction simultaneously
• Superscalar and VLIW designs
• Microcoding as a way to implement control
1-6 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 6The arithmetic and logic unit: ALU
we’ll do a bit of this in lab but skip most of it
• Impact on system performance
• Digital number systems and arithmetic in an arbitrary radix
• number systems and radix conversion
• integer add, subtract, multiply, and divide
• Time/space trade-offs: fast parallel arithmetic
• Floating point representations and operations
• Branching and the ALU
• Logic operations
• ALU hardware design
1-7 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 7The memory subsystem of the computer
• Structure of 1-bit RAM and ROM cells
• RAM chips, boards, and modules
• Concept of a memory hierarchy• nature of different levels
• interaction of adjacent levels
• Virtual memory
• Cache design: matching cache & main memory
• Memory as a complete system
1-8 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 8Computer input and output: I/O
• Kinds of system buses, signals and timing
• Serial and parallel interfaces
• Interrupts and the I/O system
• Direct memory access—DMA
• DMA, interrupts, and the I/O system
• The hardware/software interface: device drivers
1-9 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 9Structure, function, and performance of
peripheral devices
• Disk drives• Organization
• Static and dynamic properties
• Video display terminals
• Memory-mapped video
• Printers
• Mouse and keyboard
• Interfacing to the analog world
1-10 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Looking Ahead—Chapter 10Computer communications, networking, and
the Internet
• Communications protocols; layered networks
• The OSI layer model
• Point to point communication: RS-232 and ASCII
• Local area networks—LANs• Example: Ethernet
• Internetworking and the Internet• TCP/IP protocol stack
• Packet routing and routers
• IP addresses: assignment and use
• Nets and subnets: subnet masks
• Internet applications and futures
1-11 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Chapter 1—A Perspective
• Alan Turing showed that an abstract computer, a Turing machine, can compute any function that is computable by any means
• A general purpose computer with enough memory is equivalent to a Turing machine
• Over 50 years, computers have evolved• from memory size of 1 kiloword (1024 words) clock periods
of 1 millisecond (0.001 s)
• to memory size of a terabyte (240 bytes) and clock periods of 1 ns (10-9 s)
• More speed and capacity is needed for many applications, such as real-time 3D animation
1-12 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Scales, Units, and Conventions
Term
K (kilo-)
M (mega-)
G (giga-)
T (tera-)
103
106
109
1012
210 = 1,024
220 = 1,048,576
230 = 1,073,741,824
240 = 1,099,511,627,776
Normal Usage As a power of 2
Term Usage
m (milli-)
(micro-)
n (nano-)
p (pico-)
10-3
10-6
10-9
10-12
Units: Bit (b), Byte (B), Nibble, Word (w), Double Word, Long Word,
Second (s), Hertz (Hz)
Note the differences between usages. You should commit the powers of 2 and 10 to memory.
1-13 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.1 The User’s View of a Computer
The user sees software, speed, storage capacity,and peripheral device functionality.
will serve you by providing that understanding.computers it is our sincerest hope that this book Computer Engineering, or some other aspect of your career objective is in Computer Science, that you fully understand the machine. Whether at the gate, ISA, and the system architecture levelis when you understand how a machine functions leads to an efficient, effective computer design. It a computer system from each the three perspectives The intellectual synthesis that comes from viewing
1.10 Looking Ahead
1-14 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Machine/Assembly Language Programmer’s View
• Machine language:• Set of fundamental instructions the machine can execute
• Expressed as a pattern of 1’s and 0’s
• Assembly language:• Alphanumeric equivalent of machine language
• Mnemonics more human-oriented than 1’s and 0’s
• Assembler:• Computer program that transliterates (one-to-one mapping)
assembly to machine language
• Computer’s native language is machine/assembly language
• “Programmer,” as used in this course, means machine/assembly language programmer
1-15 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Machine and Assembly Language
• The assembler converts assembly language to machine language. You must also know how to do this.
Tbl 1.2 Two Motorola MC68000 Instructions
MC68000 Assembly Language Machine Language
0011 101 000 000 100
ADDI.W #9, D2 0000 000 010 111 1000000 0000 0000 1001
MOVE.W D4, D5
Op code Data reg. #5 Data reg. #4
1-16 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
The Stored Program Concept
• It is the basic operating principle for every computer.
• It is so common that it is taken for granted.
• Without it, every instruction would have to be initiated manually.
The stored program concept says that the programis stored with data in the computer’s memory. Thecomputer is able to manipulate it as data—forexample, to load it from disk, move it in memory,and store it back on disk.
1-17 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.2 The Fetch-Execute Process
MC68000 CPU Main memory
4000PC
31 00
4000
231 – 1
15 0
0011 101 000 000 100
0011 101 000 000 100
IR15 0
15 0
VariousCPU
registers
The control unit
Control signals
1-18 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Programmer’s Model:Instruction Set Architecture (ISA)
• Instruction set: the collection of all machine operations.
• Programmer sees set of instructions, along with the machine resources manipulated by them.
• ISA includes • Instruction set,
• Memory, and
• Programmer-accessible registers of the system.
• There may be temporary or scratch-pad memory used to implement some function is not part of ISA.
• Not Programmer Accessible.
1-19 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.3 Programmer’s Models of 4 Commercial Machines
216 bytes of main memorycapacity
Fewer than 100
instructions
7
15
A
216 – 1
B
IX
SP
PC
0
12 generalpurposeregisters
More than 300instructions
More than 250instructions
More than 120instructions
232 – 1
252 – 1
0
PSW
Status
R0
PC
R11
AP
FP
SP
0 31 0
32 64-bit
floating pointregisters
(introduced 1993)(introduced 1981)(introduced 1975) (introduced 1979)
0
31
0 63
32 32-bitgeneral purposeregisters
0
31
0 31
More than 50 32-bit special
purposeregisters
0 31
252 bytes of main memorycapacity
0
M6800 VAX11 PPC601
220 – 1
AX
BX
CX
DX
SP
BP
SI
DI
15 7 08
IP
Status
Addressand
countregisters
CS
DS
SS
ES
Memorysegmentregisters
220 bytes of main memorycapacity
0
I8086
232 bytes of main memorycapacity
Dataregisters6 special
purposeregisters
1-20 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Machine, Processor, and Memory State
• The Machine State: contents of all registers in system, accessible to programmer or not
• The Processor State: registers internal to the CPU
• The Memory State: contents of registers in the memory system
• “State” is used in the formal finite state machine sense
• Maintaining or restoring the machine and processor state is important to many operations, especially procedure calls and interrupts
1-21 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Data Type: HLL Versus Machine Language
• HLLs provide type checking• Verifies proper use of variables at compile time
• Allows compiler to determine memory requirements
• Helps detect bad programming practices
• Most machines have no type checking• The machine sees only strings of bits
• Instructions interpret the strings as a type: usually limited to signed or unsigned integers and FP numbers
• A given 32-bit word might be an instruction, an integer, a FP number, or 4 ASCII characters
1-22 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Tbl 1.3 Instruction Classes
• This compiler:• Maps C integers to 32-bit VAX integers
• Maps C assign, *, and + to VAX MOV, MPY, and ADD
• Maps C goto to VAX BR instruction
• The compiler writer must develop this mapping for each language-machine pair
Instruction Class C VAX Assembly Language
Data Movement
Arithmetic/ logic
Control flow
a = b
b = c + d*e
goto LBL
MOV b, a
MPY d, e, b
ADD c, b, b
BR LBL
1-23 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Tools of the Assembly Language Programmer’s Trade
• The assembler
• The linker
• The debugger or monitor
• The development system
1-24 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Who Uses Assembly Language
• The machine designer• Must implement and trade off instruction functionality
• The compiler writer• Must generate machine language from a HLL
• The writer of time or space critical code• Performance goals may force program-specific
optimizations of the assembly language
• Special purpose or imbedded processor programmers• Special functions and heavy dependence on unique I/O
devices can make HLLs useless
1-25 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
The Computer Architect’s View
• Architect is concerned with design & performance
• Designs the ISA for optimum programming utility and optimum performance of implementation
• Designs the hardware for best implementation of the instructions
• Uses performance measurement tools, such as benchmark programs, to see that goals are met
• Balances performance of building blocks such as CPU, memory, I/O devices, and interconnections
• Meets performance goals at lowest cost
1-26 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Buses as Multiplexers
• Interconnections are very important to computer
• Most connections are shared
• A bus is a time-shared connection or multiplexer
• A bus provides a data path and control
• Buses may be serial, parallel, or a combination• Serial buses transmit one bit at a time
• Parallel buses transmit many bits simultaneously on many wires
1-27 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.4 Simple One- andTwo-Bus Architectures
Memory bus
I/O bus
n
n-bit system bus
(a) One bus (b) Two buses
Input/output
subsystem
Memory
Input/output
subsystem
Input/outputdevices
Input/outputdevices
Memory
CPUCPU
1-28 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.5 The Apple Quadra 950Bus System (Simplified)
Ethernet
NuBus
SCSI bus
ADB bus
LocalTalk bus Printers, othercomputers
Keyboard,mouse, bit pads
Disk drives,CD ROM drives
Video and specialpurpose cards
Other computers
LocalTalkinterface
ADBtransceiver
SCSIinterface
NuBusinterface
Ethernettransceiver
Memory
Systembus
CPU
1-29 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.6 The Memory Hierarchy
• Modern computers have a hierarchy of memories• Allows tradeoffs of speed/cost/volatility/size, etc.
• CPU sees common view of levels of the hierarchy.
CPU Cachememory
Mainmemory
Diskmemory
Tapememory
1-30 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Tools of the Architect’s Trade
• Software models, simulators and emulators
• Performance benchmark programs
• Specialized measurement programs
• Data flow and bottleneck analysis
• Subsystem balance analysis
• Parts, manufacturing, and testing cost analysis
1-31 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Logic Designer’s View
• Designs the machine at the logic gate level
• The design determines whether the architect meets cost and performance goals
• Architect and logic designer may be a single person or team
1-32 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Implementation Domains
• VLSI on silicon
• TTL or ECL chips
• Gallium arsenide chips
• PLAs or sea-of-gates arrays
• Fluidic logic or optical switches
An implementation domain is the collection ofdevices, logic levels, etc. which the designer uses.
Possible implementation domains:
1-33 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Fig 1.7 Three Implementation Domains for the 2-1 Multiplexer
• 2-1 multiplexer in three different implementation domains• Generic logic gates (abstract domain)
• National Semiconductor FAST Advanced Schottky TTL (VLSI on Si)
• Fiber optic directional coupler switch (optical signals in LiNbO3)
S
(a) Abstract view of Boolean logic
(b) TTL implementationdomain
(c) Optical switchimplementation
O
O
OI1I0
S
I0I1
I0
S
I1
1
15
23
4
7
9
12
56
11101413
74F257N
U6
/G/A/B1A1B2A2B
1Y
2Y
3Y
4Y
3A3B4A4B
1-34 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
The Distinction Between Classical Logic Design and
Computer Logic Design• The entire computer is too complex for traditional FSM
design techniques• FSM techniques can be used “in the small”
• There is a natural separation between data and control• Data path: storage cells, arithmetic, and their connections
• Control path: logic that manages data path information flow
• Well defined logic blocks are used repeatedly• Multiplexers, decoders, adders, etc.
1-35 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Two Views of the CPU PC Register
31 0
PCProgrammer:
D Q3232
PCout
PCinCK
PC
A BusB Bus
Logic Designer(Fig 1.8):
1-36 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Tools of the Logic Designer’s Trade
• Computer-aided design tools• Logic design and simulation packages
• Printed circuit layout tools
• IC (integrated circuit) design and layout tools
• Logic analyzers and oscilloscopes
• Hardware development system
1-37 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Historical Generations
• 1st Generation: 1946–59, vacuum tubes, relays, mercury delay lines
• 2nd generation: 1959–64, discrete transistors and magnetic cores
• 3rd generation: 1964–75, small- and medium-scale integrated circuits
• 4th generation: 1975–present, single-chip microcomputer
• Integration scale: components per chip• Small: 10–100
• Medium: 100–1,000
• Large: 1000–10,000
• Very large: greater than 10,000
1-38 Chapter 1—The General Purpose Machine
Computer Systems Design and Architecture by V. Heuring and H. Jordan © 1997 V. Heuring and H. Jordan
Chapter 1 Summary• Three different views of machine structure and function
• Machine/assembly language view: registers, memory cells, instructions
• PC, IR
• Fetch-execute cycle
• Programs can be manipulated as data
• No, or almost no, data typing at machine level
• Architect views the entire system• Concerned with price/performance, system balance
• Logic designer sees system as collection of functional logic blocks
• Must consider implementation domain
• Tradeoffs: speed, power, gate fan-in, fan-out